High Efficiency Third-Harmonic Generation in a Medium with Quadratic Susceptibility Due to Cubic-like Nonlinearity Caused by Cascaded Second-Harmonic Generation

Trofimov, Vyacheslav A.; Kharitonov, Dmitry M.; Fedotov, Mikhail V.; Yang, Yongqiang; Wang, Di; Tai, Zhiheng

doi:10.3390/app13127341

Cited by 2 publications

References 67 publications

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High efficiency frequency conversion based on cascaded processes under large phase mismatching between some interacting pulses

Zheng,

Trofimov,

Kharitonov

et al. 2024

Nonlinear Frequency Generation and Conversion: Materials and Devices XXIII

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We study the frequency up-and down-conversion based on the cascaded process which accompanies large phase mismatching between fundamental and intermediate waves. So, for example, we propose using the cascaded second-harmonic generation (SHG) to implement the frequency conversion process, which is similar to that occurring in a medium with cubic susceptibility. At phase matching between the fundamental wave and the third-harmonic wave, the third harmonic generation (THG) occurs with high efficiency (94.5%).We demonstrate that the cascaded process may also influence negatively on the frequency conversion processes. SHG in a medium with combined quadratic and cubic nonlinear response accounting for weak THG at large phase mismatching demonstrates that in some cases , the SH intensity evolution is different if we take into account of weak THG process or not. So, then the intensity at doubled frequency may be much lower in certain sections of a medium in comparison with corresponding values without accounting for THG. We study such an influence of weak THG both for pulses with long duration by developing analytical approach and for short pulses based on computer simulation.

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High efficiency frequency conversion based on cascaded processes under large phase mismatching between some interacting pulses

Zheng,

Trofimov,

Kharitonov

et al. 2024

Nonlinear Frequency Generation and Conversion: Materials and Devices XXIII

Self Cite

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Intermodal phase and group velocity matching for frequency tripling and doubly phase matched cascaded wave mixing in high index contrast double-clad optical fibers

Tishchenko,

Berghmans,

Baghdasaryan

2024

Opt. Express

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Frequency conversion in glass optical fibers requires both phase and group velocity matching between the pump and the higher harmonic when working with short pulses. We show that phase and group velocities can be matched simultaneously for third order nonlinear processes, by considering that the third harmonic propagates in the higher order azimuthally symmetric LP03-mode. Moreover, the pump and frequency tripled signals can form an intermodal two-color pump to trigger a cascaded wave mixing process, which generates the second harmonic LP01-mode. This opens avenues for second harmonic generation without need for a second order nonlinearity in the optical fiber.

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High Efficiency Third-Harmonic Generation in a Medium with Quadratic Susceptibility Due to Cubic-like Nonlinearity Caused by Cascaded Second-Harmonic Generation

Cited by 2 publications

References 67 publications

High efficiency frequency conversion based on cascaded processes under large phase mismatching between some interacting pulses

High efficiency frequency conversion based on cascaded processes under large phase mismatching between some interacting pulses

Intermodal phase and group velocity matching for frequency tripling and doubly phase matched cascaded wave mixing in high index contrast double-clad optical fibers

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